about
Angio-associated migratory cell protein is expressed as an extracellular protein by blood-vessel-associated mesenchymal cellsIdentification of endothelial cell genes expressed in an in vitro model of angiogenesis: induction of ESM-1, (beta)ig-h3, and NrCAMQuantitative distribution and colocalization of non-muscle myosin light chain kinase isoforms and cortactin in human lung endotheliumHuman endothelial cells express NOD2/CARD15 and increase IL-6 secretion in response to muramyl dipeptideCAP37, a neutrophil-derived inflammatory mediator, augments leukocyte adhesion to endothelial monolayersSemaphorin 5A promotes angiogenesis by increasing endothelial cell proliferation, migration, and decreasing apoptosisProtein kinase C iota mediates lipid-induced apoptosis of human coronary artery endothelial cellsAquaporin 1 is required for hypoxia-inducible angiogenesis in human retinal vascular endothelial cellsLymphangiogenesis and metastasis--a closer look at the neuropilin/semaphorin3 axisMechanical forces and lymphatic transportLymphatic fate specification: an ERK-controlled transcriptional programMechanisms of tubulogenesis and endothelial phenotype expression by MSCsRegulation of valve endothelial cell vasculogenic network architectures with ROCK and Rac inhibitors.Endothelial monocyte activating polypeptide II induces endothelial cell apoptosis and may inhibit tumor angiogenesisThe effect of aspirin and various iontophoresis solution vehicles on skin microvascular reactivityRegulation of human cutaneous circulation evaluated by laser Doppler flowmetry, iontophoresis, and spectral analysis: importance of nitric oxide and prostaglandinesLow-frequency oscillations of the laser Doppler perfusion signal in human skinExtracellular angio-associated migratory cell protein plays a positive role in angiogenesis and is regulated by astrocytes in cocultureNotch activation during endothelial cell network formation in vitro targets the basic HLH transcription factor HESR-1 and downregulates VEGFR-2/KDR expressionInteractions of endogenous lipoproteins with capillary endothelium in spontaneously hyperlipoproteinemic ratsDefining the precapillary sphincterHIV-1 gp120 induces cytokine expression, leukocyte adhesion, and transmigration across the blood-brain barrier: modulatory effects of STAT1 signalingMeasurement of meningeal blood vessel diameter in vivo with a plug-in for ImageJEffects of hydrogen peroxide scavenger Catalase on villous microcirculation in the rat small intestine in a model of inflammatory bowel diseaseTIE1 and TIE2 receptor tyrosine kinases inversely regulate embryonic angiogenesis by the mechanism of intussusceptive microvascular growthNotch4 and Jagged-1 induce microvessel differentiation of rat brain endothelial cellsHypoxanthine uptake and release by equilibrative nucleoside transporter 2 (ENT2) of rat microvascular endothelial cellsDiabetes regulates small molecular weight G-protein, H-Ras, in the microvasculature of the retina: implication in the development of retinopathyExpression of VACM-1/cul5 mutant in endothelial cells induces MAPK phosphorylation and maspin degradation and converts cells to the angiogenic phenotypeMicrofluidic devices for modeling cell–cell and particle–cell interactions in the microvasculatureDynamics of dystroglycan complex proteins and laminin changes due to angiogenesis in rat cerebral hypoperfusion.Patterns of conducted vasomotor response in the mouse.Intercellular adhesion molecule-1 is required for chemoattractant-induced leukocyte adhesion in resting, but not inflamed, venules in vivo.Automatic tracking of rolling leukocytes in vivo.Angiogenic stimulus determines the positioning of pericytes within capillary sprouts in vivo.Determination of fluid extraction and osmotic conductance sigma K in the lung with hypertonic NaCl infusion. II. Experiments.Determination of fluid extraction and osmotic conductance sigma K in the lung with hypertonic NaCl infusion. I. Theory.Isolation and in vitro characterization of human dermal microvascular pericytes.Segmentation and quantification of blood vessels for OCT-based micro-angiograms using hybrid shape/intensity compoundingImaging the lymphatic system.
P1433
Q22010029-F580E426-8189-4A94-A7D7-A9BE133F08C0Q24292372-8076684B-5CE5-4557-B74D-C357BC097AC6Q24294241-FAC27055-1E40-4614-9572-BF05C9D29422Q24301262-E12B2190-7692-457A-B7E1-1ABA7033318EQ24306312-EED8CD03-CB53-4437-A1C8-00A86C4A2A20Q24309731-A2D13430-76F9-4C89-8FBC-4395A3795B94Q24310371-6A0260E6-14EC-40A8-9CB0-D3332D018060Q24313804-5D9BEFF4-91E8-4F92-B27B-DE5A0607B8BEQ26825144-7AFAA493-0C74-406C-BFA7-23C38E51EF70Q26853449-CC14C80C-FA42-4881-B244-C85F850863E9Q27005981-DFB93AC9-8BCB-4951-8E50-468A51B09E97Q27308660-1F69999A-60E3-4057-B6AF-7889FBC904D6Q27308671-088290F4-FB26-418F-AC6C-83E50A6FC71AQ28139497-46FF117F-D3B1-4E8B-8536-7D3A71D6D3EDQ28191901-A2FB277B-0412-46E7-8E7B-3A5A6240E2FCQ28195750-B4C6AC75-9474-4EBF-B16D-8FA6C58D653FQ28199595-9FB668AC-9CF1-4E43-BEF4-5F0198EFDE8DQ28215537-7A8E5EBC-471B-43BA-AD4A-485BFC186C8EQ28216123-966AE906-C35E-4C61-8536-7A04DC36E063Q28236504-D22A2BA5-0587-4EEB-9922-F553A28C0544Q28276904-9EA27804-AF0A-48A7-B061-50A9A3BC58E0Q28304859-588470DC-3EAA-467B-A643-F976EFFDDFD7Q28364643-617D4011-D444-4777-BCB8-FDFB5755675DQ28378210-55E42B11-EFC6-465F-9280-1DD5853BEB2BQ28512487-E133A3A8-35B9-43DD-B636-B05A87F69FD0Q28568899-238B0B0E-1D8C-4087-A128-7978D92BCF23Q28570030-E77ADA06-406E-4490-B6B5-839911BBADB1Q28577516-04C63A98-D16F-4DF1-B987-A02231A8A743Q28578323-1332E1F4-E198-4C89-AB61-614F79BBC8F3Q29541085-6BCC5197-DD97-4D9F-8770-3FC2336749FAQ30273756-8814E206-EFA7-4F14-ACC8-411AF8D74FA2Q30305077-FAB08C9E-0150-41BD-8D17-6EC5B55EFD31Q30306370-14411448-D22E-4562-AA33-5E6674CA752BQ30308388-3A44A539-7DD3-4B20-93DE-7D83AF6DE73EQ30310430-F73705F6-C060-477B-987B-7D2B0C71A715Q30312091-F85C279A-2514-4E51-AD86-A0FB8E7C2E13Q30312102-16E6E3FB-8C0B-4E47-B116-B9D0A34E8058Q30320999-F7E3396C-0339-4550-BB49-9D6453C74446Q30394964-2320F5CC-7535-4F94-A729-F14DB479318BQ30399978-33CCFF94-3838-4244-9660-EF9AF35715CF
P1433
description
revista científica
@es
revue scientifique
@fr
rivista scientifica
@it
scientific journal
@en
vědecký časopis
@cs
wetenschappelijk tijdschrift van Elsevier
@nl
wissenschaftliche Fachzeitschrift
@de
науковий журнал
@uk
مجلة
@ar
name
Microvascular Research
@ast
Microvascular Research
@da
Microvascular Research
@de
Microvascular Research
@en
Microvascular Research
@es
Microvascular Research
@fi
Microvascular Research
@fr
Microvascular Research
@it
Microvascular Research
@nb
Microvascular Research
@nl
type
label
Microvascular Research
@ast
Microvascular Research
@da
Microvascular Research
@de
Microvascular Research
@en
Microvascular Research
@es
Microvascular Research
@fi
Microvascular Research
@fr
Microvascular Research
@it
Microvascular Research
@nb
Microvascular Research
@nl
prefLabel
Microvascular Research
@ast
Microvascular Research
@da
Microvascular Research
@de
Microvascular Research
@en
Microvascular Research
@es
Microvascular Research
@fi
Microvascular Research
@fr
Microvascular Research
@it
Microvascular Research
@nb
Microvascular Research
@nl
P3181
P4616
P1055
P1058
P1156
P123
P1250
P1277
P1476
Microvascular Research
@en
P236
P3181
P5963
microvascular-research